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Picrotoxin
Picrotoxin, also known as cocculin, is a poisonous crystalline plant compound. It was first isolated by the French pharmacist and chemist Pierre François Guillaume Boullay (1777–1869) in 1812. The name "picrotoxin" is a combination of the Greek words "picros" (bitter) and "toxicon" (poison). A mixture of two different compounds, picrotoxin occurs naturally in the fruit of the Anamirta cocculus plant, although it can also be synthesized chemically.
Due to its interactions with the inhibitory neurotransmitter GABA, picrotoxin acts as a stimulant and convulsant. It mainly impacts the central nervous system, causing seizures and respiratory paralysis in high enough doses.
Picrotoxin is an equimolar mixture of two compounds, picrotoxinin (C15H16O6; CAS# 17617-45-7) and picrotin (C15H18O7; CAS# 21416-53-5). Of the two compounds, picrotin is less active.
Picrotoxin occurs naturally in the fruit of the Anamirta cocculus, a climbing plant from India and other parts of Southeast Asia. The plant is known for its large stems of white wood and sweetly-scented flowers. It produces small stone fruits, Cocculus indicus, which are typically dried.[citation needed]
Currently, there are as many as five total syntheses of picrotoxinin — one of which was published as recently as June 2020. Most syntheses use carvone as a stereochemical template.
In 1988, researchers from Tohoku University in Japan completed a total stereoselective synthesis of both (‑)‑picrotoxinin and (-)-picrotin beginning with (+)‑5β‑hydroxycarvone. In this synthesis, eight asymmetric centers were stereoselectively prepared on a cis-fused hydrindane ring system using several different reactions: a Claisen rearrangement to introduce the quaternary center, an organoselenium-mediated reduction of an epoxy ketone, and a stereospecific construction of a glycidic ester.
The June 2020 synthesis instead employed the quick formation of the polycyclic core, followed by the manipulation of oxidation states of key carbon atoms in order to produce the target molecule.
Some research suggests that picritoxin can be made by the cyclofunctionalization of cycloalkenyl systems. Under kinetically controlled conditions, this process generally results in exo cyclization and forms bridged ring systems like those found in picrotoxin.
Picrotoxin
Picrotoxin, also known as cocculin, is a poisonous crystalline plant compound. It was first isolated by the French pharmacist and chemist Pierre François Guillaume Boullay (1777–1869) in 1812. The name "picrotoxin" is a combination of the Greek words "picros" (bitter) and "toxicon" (poison). A mixture of two different compounds, picrotoxin occurs naturally in the fruit of the Anamirta cocculus plant, although it can also be synthesized chemically.
Due to its interactions with the inhibitory neurotransmitter GABA, picrotoxin acts as a stimulant and convulsant. It mainly impacts the central nervous system, causing seizures and respiratory paralysis in high enough doses.
Picrotoxin is an equimolar mixture of two compounds, picrotoxinin (C15H16O6; CAS# 17617-45-7) and picrotin (C15H18O7; CAS# 21416-53-5). Of the two compounds, picrotin is less active.
Picrotoxin occurs naturally in the fruit of the Anamirta cocculus, a climbing plant from India and other parts of Southeast Asia. The plant is known for its large stems of white wood and sweetly-scented flowers. It produces small stone fruits, Cocculus indicus, which are typically dried.[citation needed]
Currently, there are as many as five total syntheses of picrotoxinin — one of which was published as recently as June 2020. Most syntheses use carvone as a stereochemical template.
In 1988, researchers from Tohoku University in Japan completed a total stereoselective synthesis of both (‑)‑picrotoxinin and (-)-picrotin beginning with (+)‑5β‑hydroxycarvone. In this synthesis, eight asymmetric centers were stereoselectively prepared on a cis-fused hydrindane ring system using several different reactions: a Claisen rearrangement to introduce the quaternary center, an organoselenium-mediated reduction of an epoxy ketone, and a stereospecific construction of a glycidic ester.
The June 2020 synthesis instead employed the quick formation of the polycyclic core, followed by the manipulation of oxidation states of key carbon atoms in order to produce the target molecule.
Some research suggests that picritoxin can be made by the cyclofunctionalization of cycloalkenyl systems. Under kinetically controlled conditions, this process generally results in exo cyclization and forms bridged ring systems like those found in picrotoxin.
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